Packaging substrate having a passive element embedded therein and method of fabricating the same

ABSTRACT

A packaging substrate includes: a dielectric layer unit having top and bottom surfaces; a positioning pad embedded in the bottom surface of the dielectric layer unit; at least a passive element having a plurality of electrode pads disposed on upper and lower surfaces thereof, the passive element being embedded in the dielectric layer unit and corresponding to the positioning pad; a first circuit layer disposed on the top surface of the dielectric layer unit, the first circuit layer having first conductive vias electrically connected to the electrode pads disposed on the upper surface of the passive element; and a second circuit layer disposed on the bottom surface of the dielectric layer unit, the second circuit layer having second conductive vias electrically connected to the electrode pads disposed on the lower surface of the passive element. Through the embedding of the passive element, the overall structure may have a reduced height.

CROSS-REFERENCES TO RELATED APPLICATIONS

This application claims under 35 U.S.C. §119(a) the benefit of TaiwaneseApplication No. 099127018, filed Aug. 13, 2010, the entire contents ofwhich is incorporated herein by reference.

BACKGROUND OF THE INVENTION

1. Field of the Invention

This invention relates to packaging substrates and methods offabricating the same, and, more particularly, to a packaging substratehaving a passive element and a method of fabricating the same.

2. Description of Related Art

With the rapid development of semiconductor package technology, passiveelements are in increasing demands. Passive elements do not affect thebasic characteristics of signal, but only allow the signals to passtherethrough. Passive elements include capacitors, resistors andinductors. Compared to active elements, the passive elements have theirresistances unchanged even when voltages or currents change, because thepassive elements do not participate in electron exercises.

Any product that is driven by electricity needs passive elements thatprovide electrical loop controlling functions. Such applications include3C and other industrial fields. Please refer to FIG. 1, which is across-sectional diagram of a packaging substrate having a passiveelement according to the prior art. A passive element 12 is disposed onconductive pads 11 on a substrate 10 by means of solder bumps 13.

With the development of technology, electronic devices are designed tomeet the low-profile and compact-size requirements. However, a packagestructure of the prior art, in which the passive element 12 is disposedon the substrate 10, has an increased height, and is adverse in thethinning design for the electronic devices. Since the passive element 12is disposed on an external surface of the substrate 10, a signaltransmission route between an interlayer circuit and a passive elementof the substrate 10 is very long, which results in the loss ofelectricity and electrical functionality. Also, the surface of thesubstrate 10 is occupied by a circuit layout, so an area within whichpassive elements may be disposed is very limited. Therefore, only asmall number of passive elements may be disposed on the substrate 10. Asthe number of passive elements increases, the area reduction of thecircuit layout is inevitable.

Therefore, how to avoid the drawbacks of the packaging substrate havinga passive element of the prior art is becoming one of the popular issuesin the art.

SUMMARY OF THE INVENTION

In view of the above-mentioned problems of the prior art, it is anobjective of the present invention to provide a packaging substratehaving a passive element embedded therein, with a reduced structuralheight.

It is another objective of the present invention to provide a packagingsubstrate having a passive element embedded therein, with a shortenedsignal transmission route.

It is yet another objective of the present invention to provide apackaging substrate having a passive element embedded therein, in whichmore passive elements may be installed.

In order to achieve the above and other objectives, the presentinvention provides a packaging substrate having a passive elementembedded therein, the packaging substrate including: a dielectric layerunit having a top surface and a bottom surface; at least a positioningpad embedded in the bottom surface of the dielectric layer unit; atleast a passive element embedded in the dielectric layer unit and beingcorresponding in position to the at least a positioning pad, the atleast a passive element having a plurality of electrode pads formed onone or both of an upper surface and an opposing lower surface of the atleast a passive element; a first circuit layer formed on the top surfaceof the dielectric layer unit, and having a plurality of first conductivevias electrically connected to the electrode pads formed on the uppersurface of the at least a passive element; and a second circuit layerformed on the bottom surface of the dielectric layer unit, and having aplurality of second conductive vias electrically connected to theelectrode pads disposed on the lower surface of the at least a passiveelement.

In an embodiment of the present invention, the dielectric layer unitincludes a plurality of thermalplastic dielectric layers that include:at least a first thermalplastic dielectric layer for the positioning padto be embedded therein and for the passive element to be disposedthereon; and at least a second thermalplastic dielectric layer attachedto the first thermalplastic dielectric layer, allowing the at least apassive element to be embedded in the second thermalplastic dielectriclayer.

In an embodiment of the present invention, the electrode pads formed onthe lower surface of the passive element correspond in position to thepositioning pads, and the second conductive vias penetrate through thepositioning pads.

In an embodiment of the present invention, a circuit built-up structureis further formed on the top and bottom surfaces of the dielectric layerunit and the first and second circuit layers, and a solder mask layer isfurther formed on the circuit built-up structure, wherein the soldermask layer is formed with at least an opening for exposing a part of thecircuit built-up structure, for the exposed part of the circuit built-upstructure to be used as conductive pads.

In an embodiment of the present invention, a circuit built-up structureis further formed on the top surface of the dielectric layer unit andthe first circuit layer, and a solder mask layer is further disposed onthe circuit built-up structure, the bottom surface of the dielectriclayer unit, and the second circuit layer, wherein the solder mask layeris formed with at least an opening for exposing a part of the circuitbuilt-up structure and the second circuit layer, for the exposed partsof the circuit built-up structure and the second circuit layer to beused as conductive pads.

The present invention provides another packaging substrate having apassive element embedded therein, the packaging substrate including: adielectric layer unit having a top surface and a bottom surface; solderbumps embedded in the bottom surface of the dielectric layer unit; atleast a passive element having a plurality of electrode pads formed onan upper surface and a lower surface of the passive element, wherein theat least a passive element is embedded in the dielectric layer unit, andthe electrode pads are on the lower surface of the at least a passiveelement are electrically connected to the second circuit layer via thesolder bumps; a first circuit layer formed on the top surface of thedielectric layer unit, and having first conductive vias electricallyconnected to the electrode pads formed on the upper surface of thepassive element; and a second circuit layer disposed on the bottomsurface of the dielectric layer unit, and electrically connected to theelectrode pads disposed on the lower surface of the passive elementthrough the solder bumps.

In an embodiment of the present invention, a circuit built-up structureis further formed on the top and bottom surfaces of the dielectric layerunit and the first and second circuit layers, and a solder mask layer isfurther formed on circuit built-up structure, wherein the solder masklayer is formed with at least an opening for exposing a part of thecircuit built-up structure, for the exposed part of the circuit built-upstructure to be used as conductive pads.

In an embodiment of the present invention, a circuit built-up structureis further formed on the top surface of the dielectric layer unit andthe first circuit layer, and a solder mask layer is further formed onthe circuit built-up structure, the bottom surface of the dielectriclayer unit, and the second circuit layer, wherein the solder mask layeris formed with at least an opening for exposing a part of the circuitbuilt-up structure and the second circuit layer, for the exposed partsof the circuit built-up structure and the second circuit layer to beused as conductive pads.

The present invention further discloses a method of fabricating apackaging substrate having a passive element embedded therein, themethod including: providing a carrier board having two surfaces, each ofwhich has a release film and a metal layer sequentially; formingpositioning pads on the metal layers; encapsulating the metal layersdisposed on the two surfaces of the carrier board with a firstthermalplastic dielectric layer; providing at least a passive elementhaving a plurality of electrode pads formed on an upper surface and alower surface of the passive element, and disposing the at least apassive element on the first thermalplastic dielectric layer, with thepositioning pads as positioning sites; providing a second thermalplasticdielectric layer that is stacked above the first thermalplasticdielectric layer and the at least a passive element; heating andcompressing the first and second thermalplastic dielectric layers, toform two dielectric layer units, each of which has top and bottomsurfaces, wherein the at least a passive element is embedded in thedielectric layer unit, and the positioning pads are embedded in thebottom surface of the dielectric layer unit; removing the carrier boardand the release film, so as to separate the two dielectric layer units;and forming first and second circuit layers on the top and bottomsurfaces of the dielectric layer units, wherein the first circuit layeris formed with a plurality of first conductive vias electricallyconnected to the electrode pads formed on the upper surface of the atleast a passive element, and the second circuit layer is formed with aplurality of second conductive vias electrically connected to theelectrode pads disposed on the lower surface of the at least a passiveelement.

In an embodiment of the present invention, the electrode pads formed onthe lower surface of the passive element correspond in position to thepositioning pad, and the second conductive vias penetrate through thepositioning pads; a circuit built-up structure is further formed on thetop and bottom surfaces of the dielectric layer unit and the first andsecond circuit layers; and a solder mask layer is further formed on thecircuit built-up structure, wherein the solder mask layer is formed withat least an opening for exposing a part of the circuit built-upstructure, for the exposed part of the circuit built-up structure to beused as conductive pads.

The present invention provides another method of fabricating a packagingsubstrate having a passive element embedded therein, the methodincluding: providing a carrier board having two surfaces, each of whichhas a release film and a metal layer sequentially; forming solder bumpson the metal layers; providing at least a passive element having aplurality of electrode pads formed on an upper surface and a lowersurface of the at least a passive element, and disposing the electrodepads disposed on the lower surface of the at least a passive element onthe solder bumps; forming on the metal layers two dielectric layerunits, each of which has top and bottom surfaces, wherein the at least apassive element is embedded in the dielectric layer unit, and the solderbumps are embedded in the bottom surface of the dielectric layer unit;removing the carrier board and the release film, so as to separate thetwo dielectric layer units; and forming on the top and bottom surfacesof the dielectric layer units first and second circuit layers, whereinthe first circuit layer is formed with a plurality of first conductivevias electrically connected to the electrode pads formed on the uppersurface of the at least a passive element, and the second circuit layeris electrically connected to the electrode pads formed on the lowersurface of the at least a passive element through the solder bumps.

In an embodiment of the present invention, the method further includesforming a circuit built-up structure on the top and bottom surfaces ofthe dielectric layer unit and the first and second circuit layers, andforming a solder mask layer on the circuit built-up structure, whereinthe solder mask layer is formed with at least an opening for exposing apart of the circuit built-up structure, for the exposed part of thecircuit built-up structure to be used as conductive pads.

The present invention further provides a method of fabricating apackaging substrate having a passive element embedded therein, themethod including: providing a carrier board having two surfaces, each ofwhich has a release film and a metal layer sequentially; formingpositioning pads on the metal layers; encapsulating the metal layersformed on the two surfaces of the carrier board with a firstthermalplastic dielectric layer; providing at least a passive elementhaving a plurality of electrode pads disposed on an upper surface and alower surface of the at least a passive element, and disposing the atleast a passive element on the first thermalplastic dielectric layer,with the positioning pads used as positioning sites; providing a secondthermalplastic dielectric layer that is stacked above the firstthermalplastic dielectric layer and the at least a passive element;heating and compressing the first and second thermalplastic dielectriclayers, to form two dielectric layer units, each of which has top andbottom surfaces, wherein the passive element is embedded in thedielectric layer unit, and the positioning pads are embedded in thebottom surface of the dielectric layer unit; forming a first circuitlayer on the top surface of the dielectric layer unit, wherein the firstcircuit layer is formed with a plurality of first conductive viaselectrically connected to the electrode pads formed on the upper surfaceof the at least a passive element; forming a circuit built-up structureon the top surface of the dielectric layer unit and the first circuitlayer; removing the carrier board and the release film, so as toseparate the two dielectric layer units and the first circuit layer andthe circuit built-up structure formed on the two dielectric layer unitsfrom the carrier board and the release film; and forming a secondcircuit layer on the bottom surface of the dielectric layer unit,wherein the second circuit layer is formed with a plurality of secondconductive vias electrically connected to the electrode pads formed onthe lower surface of the at least a passive element.

In an embodiment of the present invention, the electrode pads formed onthe lower surface of the passive element correspond to the positioningpads, and the second conductive vias penetrate through the positioningpads; and the method further includes forming a solder mask layer on thecircuit built-up structure, the bottom surface of the dielectric layerunit, and the second circuit layer, wherein the solder mask layer isformed with at least an opening for exposing a part of the circuitbuilt-up structure and the second circuit layer, for the exposed partsof the circuit built-up structure and the second circuit layer to beused as conductive pads.

The present invention provides yet another method of fabricating apackaging substrate having a passive element embedded therein, themethod including: providing a carrier board having two surfaces, each ofwhich has a release film and a metal layer sequentially; forming solderbumps on the metal layers; providing at least a passive element having aplurality of electrode pads formed on an upper surface and a lowersurface of the at least a passive element, the electrode pads disposedon the lower surface of the passive element being disposed on the solderbumps; forming on the metal layers two dielectric layer units, each ofwhich has top and bottom surfaces, wherein the at least a passiveelement is embedded in the dielectric layer unit, and the solder bumpsare embedded in the bottom surface of the dielectric layer unit; forminga first circuit layer on the top surface of the dielectric layer unit,wherein the first circuit layer is formed with a plurality of firstconductive vias electrically connected to the electrode pads formed onthe upper surface of the at least a passive element; forming a circuitbuilt-up structure on the top surface of the dielectric layer unit andthe first circuit layer; removing the carrier board and the releasefilm, so as to separate the two dielectric layer units and the firstcircuit layer and the circuit built-up structure formed on the twodielectric layer units from the carrier board and the release film; andforming a second circuit layer on the bottom surface of the dielectriclayer unit, wherein the second circuit layer is electrically connectedto the electrode pads formed on the lower surface of the at least apassive element through the solder bumps.

In an embodiment of the present invention, the method further includesforming a solder mask layer on the circuit built-up structure, thebottom surface of the dielectric layer unit, and the second circuitlayer, wherein the solder mask layer is formed with at least an openingfor exposing parts of the circuit built-up structure and the secondcircuit layer, for the exposed parts of the circuit built-up structureand the second circuit layer to be used as conductive pads.

It can be known from the above that the present invention, through theembedding of the passive element, may have a reduced overall structuralheight and shortened signal transmission route between the passiveelement and interlayer circuits, as compared to the prior art.Therefore, more passive elements may be installed, without affecting thelayout.

BRIEF DESCRIPTION OF DRAWINGS

The invention can be more fully understood by reading the followingdetailed description of the preferred embodiments, with reference madeto the accompanying drawings, wherein:

FIG. 1 is a cross-section diagram of a packaging substrate having apassive element according to the prior art;

FIGS. 2A to 2G are cross-sectional diagrams illustrating a method offabricating a packaging substrate having a passive element embeddedtherein of a first embodiment according to the present invention,wherein FIG. 2C is another embodiment of FIG. 2C′;

FIGS. 3A to 3F are cross-sectional diagrams illustrating a method offabricating a packaging substrate having a passive element embeddedtherein of a second embodiment according to the present invention;

FIGS. 4A to 4D are cross-sectional diagrams illustrating a method offabricating a packaging substrate having a passive element embeddedtherein of a third embodiment according to the present invention; and

FIGS. 5A to 5C are cross-sectional diagrams illustrating a method offabricating a packaging substrate having a passive element embeddedtherein of a fourth embodiment according to the present invention.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

The following illustrative embodiments are provided to illustrate thedisclosure of the present invention, these and other advantages andeffects can be apparently understood by those in the art after readingthe disclosure of this specification. The present invention can also beperformed or applied by other different embodiments. The details of thespecification may be on the basis of different points and applications,and numerous modifications and variations can be devised withoutdeparting from the spirit of the present invention.

The First Embodiment

FIGS. 2A to 2G are cross-sectional diagrams illustrating a method offabricating a packaging substrate having a passive element embeddedtherein according to the present invention.

As shown in FIG. 2A, a carrier board 20 is provided. Two surfaces 20 aof the carrier board 20 have release film 200 and metal layers 201sequentially.

As shown in FIG. 2B, a positioning pad 21 is formed on the metal layer201.

As shown in FIG. 2C, the metal layers 201 on the two surfaces 20 a ofthe carrier board 20 are encapsulated by a first thermalplasticdielectric layer 230; a passive element 22 is provided that has aplurality of electrode pads 220 disposed on upper and lower surfacesthereof; and the passive element 22 is disposed on the firstthermalplastic dielectric layer 230, with the positioning pad 21 as apositioning site, wherein the electrode pads 220 disposed on the lowersurface of the passive element 22 correspond in position to thepositioning pad 21.

As shown in FIG. 2C′, a positioning pads 21′ or 21″ may be formed thatis arranged in different manners. The passive element 22 and thepositioning pad 21′ or 21″ correspond to different positions.

As shown in FIG. 2D, a second thermalplastic dielectric layer 231 isprovided that is stacked above the first thermalplastic dielectric layer230 and the passive element 22; and the first and second thermalplasticdielectric layers 230 and 231 are heated and compressed to form adielectric layer unit 23 having top and bottom surfaces 23 a and 23 b,wherein the passive element 22 is embedded in the dielectric layer unit23, and the positioning pad 21 is embedded in the bottom surface 23 b ofthe dielectric layer unit 23.

As shown in FIG. 2E, the carrier board 20 and the release film 200 areremoved, so as to separate the two dielectric layer units 23.

As shown in FIG. 2F, first and second circuit layers 24 a and 24 b areformed on the top and bottom surfaces 23 a and 23 b of the dielectriclayer unit 23; the first circuit layer 24 a has first conductive vias240 a electrically connected to the electrode pads 220 disposed on theupper surface of the passive element 22; the second circuit layer 24 bhas second conductive vias 240 b electrically connected to the electrodepads 220 disposed on the lower surface of the passive element 22; andthe second conductive vias 240 b penetrate through the positioning pad21.

The metal layer 201 may be used as a current transmission route requiredduring a metal electroplating process, so as to fabricate the secondcircuit layer 24 b.

As shown in FIG. 2G, a circuit built-up structure 25 is formed on thetop and bottom surfaces 23 a and 23 b of the dielectric layer unit 23and the first and second circuit layers 24 a and 24 b; the circuitbuilt-up structure 25 comprises at least a dielectric layer 250, acircuit layer 251 disposed on the dielectric layer 250, and conductivevias 252 disposed in the dielectric layer 250 and electrically connectedto circuits.

A solder mask layer 26 is further formed on a surface of the circuitbuilt-up structure 25. The solder mask layer 26 has an opening 260 forexposing a part of the surface of the circuit built-up structure 25, forused as conductive pads 253.

The Second Embodiment

Please refer to FIGS. 3A to 3F. The second embodiment differs from thefirst embodiment in that in the second embodiment, the solder bumps arereplaced with positioning pads, and the dielectric layer unit and thesecond circuit layer are fabricated by different processes.

As shown in FIG. 3A, a carrier board shown in FIG. 2A is provided, andsolder bumps 31 are formed on the metal layer 201.

As shown in FIG. 3B, a passive element 22 shown in FIG. 2C is provided,and electrode pads 220 disposed on a lower surface of the passiveelement 22 are disposed on the solder bumps 31.

As shown in FIG. 3C, two dielectric layer units 33, each of which hastop and bottom surfaces 33 a and 33 b, are formed on the metal layers201; the passive element 22 is embedded in the dielectric layer unit 33;and the solder bumps 31 are embedded in the bottom surface 33 b of thedielectric layer unit 33.

As shown in FIG. 3D, the carrier board 20 and the release film 200 areremoved, so as to separate the two dielectric layer units 33.

As shown in FIG. 3E, first and second circuit layers 24 a and 34 b areformed on the top and bottom surfaces 33 a and 33 b of the dielectriclayer unit 33; the second circuit layer 34 b is electrically connectedto the electrode pads 220 disposed on the lower surface of the passiveelement 22 by means of the solder bumps 31; and the first circuit layer24 a has first conductive vias 240 a electrically connected to theelectrode pads 220 disposed on the upper surface of the passive element22.

The metal layer 201 may be used as a current transmission route requiredduring a metal electroplating process, so as to fabricate the secondcircuit layer 34 b.

As shown in FIG. 3F, a circuit built-up structure 25 and a solder masklayer 26 shown in FIG. 2G are formed on the top and bottom surfaces 33 aand 33 b of the dielectric layer unit 33 and the first and secondcircuit layers 24 a and 34 b.

The Third Embodiment

Please refer to FIGS. 4A to 4D. The third embodiment differs from thefirst embodiment in the processes of fabricating the first circuit layerand the circuit built-up structure.

As shown in FIG. 4A, subsequent to the fabrication process shown in FIG.2D, in which the dielectric layer unit 23 is formed by the heating andcompressing processes, a first circuit layer 44 a is formed on the topsurface 23 a of the dielectric layer unit 23, and the first circuitlayer 44 a has first conductive vias 440 a electrically connected to theelectrode pads 220 disposed on the upper surface of the passive element22; and a circuit built-up structure 45 is then formed on the topsurface 23 a of the dielectric layer unit 23 and the first circuit layer44 a. The circuit built-up structure 45 comprises at least a dielectriclayer 450, a circuit layer 451 disposed on the dielectric layer 450, andconductive vias 452 disposed in the dielectric layer 450 andelectrically connected to circuits.

As shown in FIG. 4B, the carrier board 20 and the release film 200 areremoved, allowing the two dielectric layer units 23 and the firstcircuit layer 44 a and the circuit built-up structure 45 formed thereonto be separated from the carrier board 20 and the release film 200.

As shown in FIG. 4C, a second circuit layer 24 b is formed on the bottomsurface 23 b of the dielectric layer unit 23, the second circuit layer24 b has second conductive vias 240 b electrically connected to theelectrode pads 220 disposed on the lower surface of the passive element22, and the second conductive vias 240 b penetrate through thepositioning pad 21.

The metal layer 201 may be used as a current transmission route requiredduring a metal electroplating process, so as to fabricate the secondcircuit layer 24 b.

As shown in FIG. 4D, a solder mask layer 46 is formed on the circuitbuilt-up structure 45, the bottom surface 23 b of the dielectric layerunit 23, and the second circuit layer 24 b, the solder mask layer 46having an opening 460 for exposing a part of surfaces of the circuitbuilt-up structure 45 and the second circuit layer 24 b, for used asconductive pads 453.

The Fourth Embodiment

Please refer to FIGS. 5A to 5C. The fourth embodiment differs from thesecond embodiment in the processes of fabricating the first circuitlayer and the circuit built-up structure.

As shown in FIG. 5A, subsequent to the fabrication process shown in FIG.3C, in which the dielectric layer unit 33 is formed, a first circuitlayer 54 a is formed on the top surface 33 a of the dielectric layerunit 33; the first circuit layer 54 a has first conductive vias 540 aelectrically connected to the electrode pads 220 disposed on the uppersurface of the passive element 22; and a circuit built-up structure 55is then formed on the top surface 33 a of the dielectric layer unit 33and the first circuit layer 54 a. The circuit built-up structure 55comprises at least a dielectric layer 550, a circuit layer 551 disposedon the dielectric layer 550, and conductive vias 552 disposed in thedielectric layer 550 and electrically connected to circuits.

As shown in FIG. 5B, the carrier board 20 and the release film 200 areremoved, allowing the two dielectric layer units 33 and the firstcircuit layer 54 a and the circuit built-up structure 55 formed thereonto be separated from the carrier board 20 and the release film 200.

As shown in FIG. 5C, a second circuit layer 34 b is formed on the bottomsurface 33 b of the dielectric layer unit 33, and the second circuitlayer 34 b is electrically connected to the electrode pads 220 disposedon the lower surface of the passive element 22 by means of the solderbumps 31.

The metal layer 201 may be used as a current transmission route requiredduring a metal electroplating process, so as to fabricate the secondcircuit layer 34 b.

A solder mask layer 56 is then formed on the circuit built-up structure55, the bottom surface 33 b of the dielectric layer unit 33, and thesecond circuit layer 34 b. The solder mask layer 56 has an opening 560for exposing a part of surfaces of the circuit built-up structure 55 andthe second circuit layer 34 b, for used as conductive pads 553.

A packaging substrate having a passive element embedded therein may beobtained by the methods of the first to third embodiments. The packagingsubstrate comprises: a dielectric layer unit 23 having top and bottomsurfaces 23 a and 23 b; a positioning pad 21 embedded in the bottomsurface 23 b of the dielectric layer unit 23; a passive element 22having a plurality of electrode pads 220 disposed on upper and lowersurfaces thereof, the passive element 22 being embedded in thedielectric layer unit 23 and corresponding to the positioning pad 21;first circuit layers 24 a and 44 a disposed on the top surface 23 a ofthe dielectric layer unit 23, the first circuit layers 24 a and 44 ahaving first conductive vias 240 a and 440 a electrically connected tothe electrode pads 220 disposed on the upper surface of the passiveelement 22; and a second circuit layer 24 b disposed on the bottomsurface 23 b of the dielectric layer unit 23, the second circuit layer24 b having second conductive vias 240 b electrically connected to theelectrode pads 220 disposed on the lower surface of the passive element22.

The dielectric layer unit 23 is composed by a plurality ofthermalplastic dielectric layers. The dielectric layer unit 23 includes:a first thermalplastic dielectric layer 230 in which the positioning pad21 is embedded, wherein the passive element 22 is disposed on the firstthermalplastic dielectric layer 230; and a second thermalplasticdielectric layer 231 that combines with the first thermalplasticdielectric layer 230, allowing the passive element 22 to be embedded inthe first and second thermalplastic dielectric layers 230 and 231.

The electrode pads 220 disposed on the lower surface of the passiveelement 22 correspond to the positioning pad 21, and the secondconductive vias 240 b penetrate through the positioning pad 21.

According to the first embodiment, a symmetrical structure may beformed: a circuit built-up structure 25 may be further disposed on thetop and bottom surfaces of the dielectric layer unit 23 and the firstand second circuit layers 24 a and 24 b; and the packaging substratefurther comprises a solder mask layer 26 disposed on the circuitbuilt-up structure 25, the solder mask layer 25 having an opening 260for exposing a part of a surface of the circuit built-up structure 25,for used as conductive pads 253.

According to the third embodiment, an asymmetrical structure may beformed: a circuit built-up structure 45 is disposed on the top surface23 a of the dielectric layer unit 23 and the first circuit layer 44 a,and the packaging substrate further comprises a solder mask layer 46disposed on the circuit built-up structure 45, the bottom surface 23 bof the dielectric layer unit 23, and the second circuit layer 24 b, thesolder mask layer 46 having an opening 460 for exposing a part ofsurfaces of the circuit built-up structure 45 and the second circuitlayer 24 b, for used as conductive pads 453.

A packaging substrate having a passive element embedded therein may beobtained from the methods of the second and fourth embodiments. Thepackaging substrate comprises: a dielectric layer unit 33 having top andbottom surfaces 33 a and 33 b; solder bumps 31 embedded in the bottomsurface 33 b of the dielectric layer unit 33; a passive element 22having a plurality of electrode pads 220 disposed on upper and lowersurfaces thereof, wherein the passive element 22 is embedded in thedielectric layer unit 33, and the electrode pads 220 disposed on thelower surface of the passive element 22 are disposed on the solder bumps31; first circuit layers 24 a and 54 a disposed on the top surface 33 aof the dielectric layer unit 33, the first circuit layers 24 a and 54 ahaving first conductive vias 240 a and 540 a electrically connected tothe electrode pads 220 disposed on the upper surface of the passiveelement 22; and a second circuit layer 34 b disposed on the bottomsurface of the dielectric layer unit 33, the second circuit layer 34 bbeing electrically connected to the electrode pads 220 disposed on thelower surface of the passive element 22 by means of the solder bumps 31.

According to the second embodiment, a symmetrical structure may beformed: a circuit built-up structure 25 is further disposed on the topand bottom surfaces 33 a and 33 b of the dielectric layer unit 33 andthe first and second circuit layers 24 a and 34 b, and the packagingsubstrate further comprises a solder mask layer 26 disposed on thecircuit built-up structure 25, the solder mask layer 26 having anopening 260 for exposing a part of a surface of the circuit built-upstructure 25, for used as conductive pads 253.

According to the fourth embodiment, an asymmetrical structure may beformed: a circuit built-up structure 55 is further disposed on the topsurface 33 a of the dielectric layer unit 33 and the first circuit layer54 a, and the packaging substrate further comprises a solder mask layer56 disposed on the circuit built-up structure 55, the bottom surface 33b of the dielectric layer unit 33, and the second circuit layer 34 b,the solder mask layer 56 having an opening 560 for exposing a part ofsurfaces of the circuit built-up structure 55 and the second circuitlayer 34 b, for used as conductive pads 553.

In conclusion, the present invention, through the embedding of thepassive element 22, has a reduced overall structural height, and isadvantage for designing thinned electronic products. Also, the signaltransmission route between the passive element 22 and interlayercircuits (e.g., the first and second circuit layers 24 a, 44 a, 54 a, 24b and 34 b) is shortened. Therefore, the electrical loss is reduced, andthe expected electrical functionality may be achieved.

Moreover, since the passive element 22 is embedded in the dielectriclayer unit 23, more passive elements may be installed, without affectingthe layout area (e.g., the circuit built-up structures 25, 45 and 55,and the first and second circuit layers 24 a, 44 a, 54 a, 24 b and 34b). As such, the demands of gain operation function and processcapability of electronic devices may be satisfied.

The foregoing descriptions of the detailed embodiments are onlyillustrated to disclose the features and functions of the presentinvention and not restrictive of the scope of the present invention. Itshould be understood to those in the art that all modifications andvariations according to the spirit and principle in the disclosure ofthe present invention should fall within the scope of the appendedclaims.

What is claimed is:
 1. A packaging substrate having a passive elementembedded therein, comprising: a dielectric layer unit having a topsurface and a bottom surface; at least a positioning pad embedded in thebottom surface of the dielectric layer unit; at least a passive elementembedded in the dielectric layer unit and corresponding in position tothe at least a positioning pad, the at least a passive element having aplurality of electrode pads formed on one or both of an upper surfaceand an opposing lower surface of the at least a passive element; a firstcircuit layer formed on the top surface of the dielectric layer unit,and having a plurality of first conductive vias electrically connectedto the electrode pads formed on the upper surface of the at least apassive element; and a second circuit layer formed on the bottom surfaceof the dielectric layer unit, and having a plurality of secondconductive vias electrically connected to the electrode pads disposed onthe lower surface of the at least a passive element, wherein the secondconductive vias penetrate through the at least a positioning pad.
 2. Thepackaging substrate of claim 1, wherein the dielectric layer unitcomprises a plurality of thermalplastic dielectric layers that include:at least a first thermalplastic dielectric layer for the positioning padto be embedded therein and for the passive element to be disposedthereon; and at least a second thermalplastic dielectric layer attachedto the first thermalplastic dielectric layer, allowing the at least apassive element to be embedded in the second thermalplastic dielectriclayer.
 3. The packaging substrate of claim 1, wherein the electrode padsformed on the lower surface of the passive element correspond to the atleast a positioning pad.
 4. The packaging substrate of claim 1, furthercomprising a circuit built-up structure formed on the top surface andthe bottom surface of the dielectric layer unit and the first and secondcircuit layers.
 5. The packaging substrate of claim 4, furthercomprising a solder mask layer formed on the circuit built-up structure,wherein the solder mask layer is formed with at least an opening forexposing a part of the circuit built-up structure, for the exposed partof the circuit built-up structure to be used as conductive pads.
 6. Thepackaging substrate of claim 1, further comprising a circuit built-upstructure formed on the top surface of the dielectric layer unit and thefirst circuit layer.
 7. The packaging substrate of claim 6, furthercomprising a solder mask layer formed on the circuit built-up structure,the bottom surface of the dielectric layer unit, and the second circuitlayer, wherein the solder mask layer is formed with at least an openingfor exposing parts of the circuit built-up structure and the secondcircuit layer, for the exposed parts of the circuit built-up structureand the second circuit layer to be used as conductive pads.